Pythonic
There is a small project in development to bring a Python calling interface to Octave. The broad goal of this project is to add functions and types to Octave to allow calling Python functions directly from Octave.
Features
Features and capabilities of Octave's Python interface may include:
- Import and call Python modules and functions from the Octave interpreter
- Automatically convert basic Octave and Python types seamlessly between the two environments
- Be able to handle arbitrary unknown Python objects (print their repr, store in a variable, pass back in to a Python function)
- Store references to Python functions (and other "callables") and be able to call them as if they were function handles
Development
Project development is ongoing among a small group of developers. Communication takes place on the Octave maintainers mailing list. The official Mercurial repository is at http://hg.octave.org/pytave, but there is also a Bitbucket clone and a network of forks, for those who prefer that model of development, at https://bitbucket.org/mtmiller/pytave.
Pytave
This project is currently derived from an earlier project called Pytave, which was developed to work in the opposite direction, to allow Python to call Octave functions on an embedded Octave interpreter. The bulk of the project is in the code to convert between Octave and Python data types, so most of that is reusable and serves both purposes. As a side goal, we may continue to maintain the Python wrapper around Octave and incorporate that into Octave as well, so that Octave can provide its own native Python module.
Documentation
The current development needs to be documented. We are using doxygen for the documentation documentation.
Python from Octave
The conversion of Python's dict is not unique. For that we have decided to load a Python's dict as a structure. This works only when all the keys fo the dict are strings. When the keys are something else there is the option to use `repr` to create the fields of the Octave's struct, e.g.
Code: Conversion of Python's dict to structure |
> x = pyeval ("{1:'one',2:'two'}");
> x.("1")
ans = one
> x.("2")
ans = two
> x = pyeval ("{(1,1):'one',2.5:'two'}");
> x.("(1,1)")
ans = one
> x.("2.5")
ans = two
|
This would be the default behavior. We will extend pyeval to receive an optional argument specifying the Octave type that should be used as the output of the conversion, e.g. when the dict uses continuos numbers as keys one could do
Code: pyeval optional argument |
> x = pyeval ("{1:'one',2:'two'}",@cell);
> x{1}
ans = one
> x{2}
ans = two
> x = pyeval ("{1:'one',2:'two'}",@char);
> x
x =
one
two
> whos x
Variables in the current scope:
Attr Name Size Bytes Class
==== ==== ==== ===== =====
x 2x3 6 char
Total is 6 elements using 6 bytes
> x = pyeval ("[i for i in xrange(3)]",@double)
x =
0 1 2
|
The optional argument could be the constructor of an Octave class.